DOCSLIB.ORG

Download From

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Download From Information Sheet on Ramsar Wetlands (RIS) – 2009-2012 version Available for download from http://www.ramsar.org/ris/key_ris_index.htm. Categories approved by Recommendation 4.7 (1990), as amended by Resolution VIII.13 of the 8 th Conference of the Contracting Parties (2002) and Resolutions IX.1 Annex B, IX.6, IX.21 and IX. 22 of the 9 th Conference of the Contracting Parties (2005). Notes for compilers: 1. The RIS should be completed in accordance with the attached Explanatory Notes and Guidelines for completing the Information Sheet on Ramsar Wetlands. Compilers are strongly advised to read this guidance before filling in the RIS. 2. Further information and guidance in support of Ramsar site designations are provided in the Strategic Framework and guidelines for the future development of the List of Wetlands of International Importance (Ramsar Wise Use Handbook 14, 3rd edition). A 4th edition of the Handbook is in preparation and will be available in 2009. 3. Once completed, the RIS (and accompanying map(s)) should be submitted to the Ramsar Secretariat. Compilers should provide an electronic (MS Word) copy of the RIS and, where possible, digital copies of all maps. 1. Name and address of the compiler of this form: FOR OFFICE USE ONLY . Department of Environment, Water Resources DD MM YY and Environment Administration (WREA), Vientiane, Lao PDR P.O. Box 7864 Designation date Site Reference Number Mr. Khampadith Khammounheuang - National focal point Tel: +856 21 218 712 Fax: +856 21 218 712 Email: [email protected] Mr. Khonsavanh Luanglath - Secretariat to national focal point Tel: +856 21 218 712 Fax: +856 21 218 712 Email: khonesavanh louangraj [[email protected]] 2. Date this sheet was completed/updated: December 2009 3. Country: Lao PDR 4. Name of the Ramsar site: The precise name of the designated site in one of the three official languages (English, French or Spanish) of the Convention. Alternative names, including in local language(s), should be given in parentheses after the precise name. Xe Champhone Wetlands Information Sheet on Ramsar Wetlands (RIS), page 2 5. Designation of new Ramsar site or update of existing site: This RIS is for (tick one box only) : a) Designation of a new Ramsar site or b) Updated information on an existing Ramsar site 6. For RIS updates only, changes to the site since its designation or earlier update: a) Site boundary and area The Ramsar site boundary and site area are unchanged: or If the site boundary has changed: i) the boundary has been delineated more accurately ; or ii) the boundary has been extended ; or iii) the boundary has been restricted** and/or If the site area has changed: i) the area has been measured more accurately ; or ii) the area has been extended ; or iii) the area has been reduced** ** Important note : If the boundary and/or area of the designated site is being restricted/reduced, the Contracting Party should have followed the procedures established by the Conference of the Parties in the Annex to COP9 Resolution IX.6 and provided a report in line with paragraph 28 of that Annex, prior to the submission of an updated RIS. b) Describe briefly any major changes to the ecological character of the Ramsar site, including in the application of the Criteria, since the previous RIS for the site: 7. Map of site: Refer to Annex III of the Explanatory Note and Guidelines , for detailed guidance on provision of suitable maps, including digital maps. a) A map of the site, with clearly delineated boundaries, is included as: i) a hard copy (required for inclusion of site in the Ramsar List): ; ii ) an electronic format (e.g. a JPEG or ArcView image) ; iii) a GIS file providing geo-referenced site boundary vectors and attribute tables b) Describe briefly the type of boundary delineation applied: e.g. the boundary is the same as an existing protected area (nature reserve, national park, etc.), or follows a catchment boundary, or follows a geopolitical boundary such as a local government jurisdiction, follows physical boundaries such as roads, follows the shoreline of a waterbody, etc. Information Sheet on Ramsar Wetlands (RIS), page 3 The location of Xe Champhone Wetlands, the main portion is just the south of Ban Kengkok between the road 9 and road 11 (Figure 1), and a small part of the wetlands extend to the north for some 5 km. 8. Geographical coordinates (latitude/longitude, in degrees and minutes): Provide the coordinates of the approximate centre of the site and/or the limits of the site. If the site is composed of more than one separate area, provide coordinates for each of these areas. Center of site: 16°23’N and 105°13’E The coordinates of boundaries of the Xe Champhone Wetlands Ramsar Site are shown as below: No. Y X Boundary 1 16°30’13’’ N 105°10’03’’ E North-west 2 16°30’12’’ N 105°11’20’’ E North-east 3 16°28’00’’ N 105°10’30’’ E West 4 16°21’30’’ N 105°10’45’’ E West 5 16°18’38’’ N 105°14’30’’ E Southernmost 6 16°20’20’’ N 105°14’00’’ E South-east 7 16°26’00’’ N 105°14’50’’ E East 8 16°25’55’’ N 105°12’30’’ E East 9 16°30’12’’ N 105°11’20’’ E East 9. General location: Include in which part of the country and which large administrative region(s) the site lies and the location of the nearest large town. The Xe Champone Wetlands lie within Savannakhet Province, in the southern part of Lao PDR (Figure 1). The site is approximately 3 km away from Ban Kengkok, the main town of Champhone District. The southern end of the site joins the border of Xonbuly district 10. Elevation: (in metres: average and/or maximum & minimum) 115 to 135 meters above sea level. 11. Area: (in hectares) Total area: 12,400 ha 12. General overview of the site: Provide a short paragraph giving a summary description of the principal ecological characteristics and importance of the wetland. The Xe Champhone Wetlands is a large plain containing perennial and seasonal rivers as well as scattered lakes, ponds, fresh water marshes, and rice paddy fields (Claridge, 1996). The site is an outstanding example of a river characterised by many meanders (35), oxbows (50) and other water bodies (40). These wetlands become interconnected during the wet season. Both perennial and seasonal rivers and ponds form the wetlands complex extend to the south-western part – lying outside the designated Xe Champhone Wetlands Ramsar Site e.g Nong Luang, Kut Koung and Kut Koke. Information Sheet on Ramsar Wetlands (RIS), page 4 Whilst the northern part of the site comprise mainly rice paddy and two large reservoirs, the southern part contains extensive semi-natural vegetation, typically low open woodland, both mixed semi-evergreen forest with some dipterocarps, Lagerstroemia sp., Bauhinia sp., bamboo, and an under storey of shrubs and grasses. The Xe Champhone Wetlands is one of a few areas in the Lao PDR where critically endangered Siamese crocodiles ( Crocodylus siamensis ) have been recorded. Also found in the area are a number of waterbirds species particularly Lesser whistling duck ( Dendrocygna javanica ), a few species of kingfisher, White-breasted waterhen (Amaurornis phoenicurus ), darter sp. and egrets, fish, livestock grazing areas, remote settlements and traditional rice cultivation. 13. Ramsar Criteria: Tick the box under each Criterion applied to the designation of the Ramsar site. See Annex II of the Explanatory Notes and Guidelines for the Criteria and guidelines for their application (adopted by Resolution VII.11). All Criteria which apply should be ticked. 1 2 3 4 5 6 7 8 9 14. Justification for the application of each Criterion listed in 13 above: Provide justification for each Criterion in turn, clearly identifying to which Criterion the justification applies (see Annex II for guidance on acceptable forms of justification). Criterion 1: The Xe Champhone Wetlands are special with many meanders and oxbows with deep pools, and open and closed water face. Mats of dense floating vegetation, floating hammock are found in the close water surface wetlands. Such riverine habitats are rare to find in the country. The meandering river links all the wetlands together, including ponds and streams (Figure 3). The Xe Champhone River is the main water body that maintains this ecosystem. Criterion 2: The Xe Champhone Wetlands is an important habitat for the largest population of the critically endangered Siamese crocodiles (Crocodylus siamensis ) in Lao PDR and also protects other threatended species. Vernacular name Common Scientific name IUCN CMS CITES name - Siamese Crocodylus Critically - Appenidx I Crocodiles siamensis Endangered Tao phek Elongated Indotestudo Endangered - - Tortoise elongata Tao kwaii Giant Asian Heosemys grandis Vulnerable - Appendix II Pond Turtle Pafa ong Asiatic soft- Amyda Vulnerable - Appendix II shell Turtle cartilaginea Information Sheet on Ramsar Wetlands (RIS), page 5 Criterion 4: Some of the lakes/ponds/marshes in which the Siamese crocodiles are found, are very deep and barely disturbed, and thus provides the ideal habitat for crocodiles and fish to remain all year round despite the drying conditions in other areas. Fish breed in area suchs as Kout Xelat, Kout Kean and Kout Markpeo, and also some areas outside the site, including Kout Louang, Kout Koke and Nong Luang (Cox and Phothitay, 2008). Criterion 8: The Xe Champhone Wetlands is an important area for fish spawning. Fish live in the deep lakes/pools/ponds of the wetlands during the dry season, and then travel to upstream tributaries to spawn during the wet season. Fish also migrate to ponds and paddy fields for breeding during the wet season.
Load more

Recommended publications
  • Information Sheet on Ramsar Wetlands (RIS)– 2009-2012 Version
    Information Sheet on Ramsar Wetlands (RIS)– 2009-2012 version Available for download from http://www.ramsar.org/ris/key_ris_index.htm. Categories approved by Recommendation 4.7 (1990), as amended by Resolution VIII.13 of the 8th Conference of the Contracting Parties (2002) and Resolutions IX.1 Annex B, IX.6, IX.21 and IX. 22 of the 9th Conference of the Contracting Parties (2005). Notes for compilers: 1. The RIS should be completed in accordance with the attached Explanatory Notes and Guidelines for completing the Information Sheet on Ramsar Wetlands. Compilers are strongly advised to read this guidance before filling in the RIS. 2. Further information and guidance in support of Ramsar Site designations are provided in the Strategic Framework and guidelines for the future development of the List of Wetlands of International Importance (Ramsar Wise Use Handbook 14, 3nd edition). 3. Once completed, the RIS (and accompanying map(s)) should be submitted to the Ramsar Secretariat. Compilers should provide an electronic (MS Word) copy of the RIS and, where possible, digital copies of all maps. 1. Name and address of the compiler of this form: Dr. Srey Sunleang, FOR OFFICE USE ONLY. Director, DD MM YY Department of Wetlands and Coastal Zones, Ministry of Environment, #48 Preah Sihanouk Blvd., Tonle Bassac, Chamkar Morn, Phnom Penh, Cambodia Designation date Site Reference Number Tel: (855) 77-333-456 Fax (855)-23-721-073 E-mail: [email protected] 2. Date this sheet was completed: 9 September, 2011 3. Country: Cambodia 4. Name of the Ramsar Site: The precise name of the designated Site in one of the three official languages (English, French or Spanish) of the Convention.
    [Show full text]
  • Wetlands, Biodiversity and the Ramsar Convention
    Wetlands, Biodiversity and the Ramsar Convention Wetlands, Biodiversity and the Ramsar Convention: the role of the Convention on Wetlands in the Conservation and Wise Use of Biodiversity edited by A. J. Hails Ramsar Convention Bureau Ministry of Environment and Forest, India 1996 [1997] Published by the Ramsar Convention Bureau, Gland, Switzerland, with the support of: • the General Directorate of Natural Resources and Environment, Ministry of the Walloon Region, Belgium • the Royal Danish Ministry of Foreign Affairs, Denmark • the National Forest and Nature Agency, Ministry of the Environment and Energy, Denmark • the Ministry of Environment and Forests, India • the Swedish Environmental Protection Agency, Sweden Copyright © Ramsar Convention Bureau, 1997. Reproduction of this publication for educational and other non-commercial purposes is authorised without prior perinission from the copyright holder, providing that full acknowledgement is given. Reproduction for resale or other commercial purposes is prohibited without the prior written permission of the copyright holder. The views of the authors expressed in this work do not necessarily reflect those of the Ramsar Convention Bureau or of the Ministry of the Environment of India. Note: the designation of geographical entities in this book, and the presentation of material, do not imply the expression of any opinion whatsoever on the part of the Ranasar Convention Bureau concerning the legal status of any country, territory, or area, or of its authorities, or concerning the delimitation of its frontiers or boundaries. Citation: Halls, A.J. (ed.), 1997. Wetlands, Biodiversity and the Ramsar Convention: The Role of the Convention on Wetlands in the Conservation and Wise Use of Biodiversity.
    [Show full text]
  • National Reports on Wetlands in South China Sea
    United Nations UNEP/GEF South China Sea Global Environment Environment Programme Project Facility “Reversing Environmental Degradation Trends in the South China Sea and Gulf of Thailand” National Reports on Wetlands in South China Sea First published in Thailand in 2008 by the United Nations Environment Programme. Copyright © 2008, United Nations Environment Programme This publication may be reproduced in whole or in part and in any form for educational or non-profit purposes without special permission from the copyright holder provided acknowledgement of the source is made. UNEP would appreciate receiving a copy of any publication that uses this publicationas a source. No use of this publication may be made for resale or for any other commercial purpose without prior permission in writing from the United Nations Environment Programme. UNEP/GEF Project Co-ordinating Unit, United Nations Environment Programme, UN Building, 2nd Floor Block B, Rajdamnern Avenue, Bangkok 10200, Thailand. Tel. +66 2 288 1886 Fax. +66 2 288 1094 http://www.unepscs.org DISCLAIMER: The contents of this report do not necessarily reflect the views and policies of UNEP or the GEF. The designations employed and the presentations do not imply the expression of any opinion whatsoever on the part of UNEP, of the GEF, or of any cooperating organisation concerning the legal status of any country, territory, city or area, of its authorities, or of the delineation of its territories or boundaries. Cover Photo: A vast coastal estuary in Koh Kong Province of Cambodia. Photo by Mr. Koch Savath. For citation purposes this document may be cited as: UNEP, 2008.
    [Show full text]
  • Long-Term Reproductive Behaviour of Woody Plants Across Seven
    Ecology Letters, (2007) 10: 956–969 doi: 10.1111/j.1461-0248.2007.01089.x LETTER Long-term reproductive behaviour of woody plants across seven Bornean forest types in the Gunung Palung National Park (Indonesia): suprannual synchrony, temporal productivity and fruiting diversity Abstract Charles H. Cannon,1,2* Lisa M. For 68 months, we observed the reproductive behaviour of 7288 woody plants (172 figs, Curran,3 Andrew J. Marshall4 and 1457 climbers and 5659 trees) spanning major soil and elevational gradients. Two Mark Leighton5 2–3 month community-wide supra-annual fruiting events were synchronized across five 1 Department of Biological forest types, coinciding with ENSO events. At least 27 genera in 24 families restricted Sciences, Texas Tech University, their reproduction to these events, which involved a substantial proportion of tree Box 43131, Lubbock, TX 79409- diversity (> 80% of phylogenetic diversity). During these events, mean reproductive 3131, USA levels (8.5%) represented an almost four-fold increase compared with other months. 2Xishuangbanna Tropical These patterns indicate a strong behavioural advantage to this unusual reproductive Botanic Garden, Chinese Academy of Sciences, Kunming, behaviour. Montane forest experienced a single, separate fruiting peak while the peat Yunnan 650223, China swamp forest did not participate. Excluding these events, no temporal reproductive 3School of Forestry and pattern was detectible, at either the landscape or forest type. These phenological patterns Environmental Studies, Yale have major implications for the conservation of frugivore communities, with montane University, 205 Prospect Street, and swamp forests acting as ÔkeystoneÕ forests. New Haven, CT 06511, USA 4Department of Anthropology Keywords and Graduate Group in Ecology, Keystone forest type, liana, mast fruiting, phenology, phylogenetic diversity, tropical University of California, One trees.
    [Show full text]
  • Forest Degradation Assessment of Ratargul Special Biodiversity Protection Area for Conservation Implications
    DOI: 10.5152/forestist.2020.20016 Forestist 2020, 70(2): 77-84 Original Article Forest degradation assessment of Ratargul Special Biodiversity Protection Area for conservation implications Ratargul Özel Biyoçeşitlilik Koruma Alanındaki koruma önerileri kapsamında ormandaki bozulmanın değerlendirilmesi Md. Humayun-Bin-Akram , Kazi Mohammad Masum Department of Forestry and Environmental Science, Shahjalal University of Science & Technology, Sylhet, Bangladesh ABSTRACT Forest degradation is threatening the biodiversity of moist tropical forests since the beginning of their devel- opment. Bangladesh is losing its forests and associated biodiversity continuously due to forest-dependent livelihoods. The only freshwater swamp forest of the Ratargul Special Biodiversity Protection Area in Bang- ladesh is also very prone to degradation due to anthropogenic disturbance. This distinct swamp forest has unique biological diversity compared to other forest types. To assess its degradation and to propose implica- tions for conservation, sentinel images with 10×10 m resolution were used. Also, field data were collected and analyzed. This research produced a map of forest cover change and outlined an area that can be used in resto- ration planning. Branch cutting, dry season overgrazing, illegal tree felling, fuelwood collection, trampling by tourists, and insect and disease epidemics were identified as causes of degradation. Functional conservation effort ensured by strong political will and area-specific forest protection regulation is essential for the conser- vation of last swamp forest and its remnant biodiversity. Community-based conservation approaches need to be applied for mass awareness regarding this ecosystem's value and its sustainability. Keywords: Conservation implications, environmental degradation, freshwater swamp forest, remote sensing, sustainable ecosystems ÖZ Ormanların bozulması, var oldukları günden bugüne nemli tropik ormanların biyolojik çeşitliliğini tehdit etme- ktedir.
    [Show full text]
  • Germination in Four Low-Várzea Tree Species of Central Amazonia
    Aquatic Botany 86 (2007) 197–203 www.elsevier.com/locate/aquabot Germination in four low-va´rzea tree species of Central Amazonia Astrid de Oliveira Wittmann a, Maria T.F. Piedade a, Pia Parolin b,*, Florian Wittmann b a Instituto Nacional de Pesquisas da Amazonia, Av. Andre´ Arau´jo 2936, 69011-970 Manaus/AM, Brazil b Max-Planck-Institute for Limnology, P.O. Box 165, 24302 Plo¨n, Germany Received 26 May 2005; received in revised form 6 October 2006; accepted 13 October 2006 Abstract Trees of Central Amazonian white-water (va´rzea) forests are highly adapted to the annual inundations, which can last up to 7 months every year. Many trees synchronize fruit production to the period of highest water levels of the rivers, and hydrochory is especially common in species that colonize the low-lying flood-levels flooded for longer periods. The effect of the contact of diaspores with the river water is controversially discussed in literature. While many studies describe that flooding breaks the dormancy in seeds of many va´rzea tree species and is necessary for germination, other studies mention that seed buoyancy and/or submergence have negative effects on germination. Therefore, the present study was designed in order to test experimentally how seed buoyancy and seed submergence affect germination in four va´rzea tree species of the low-lying flood-levels. The tested species with buoyant seeds were Salix martiana and Pseudobombax munguba, those with submerged seeds Laetia corymbulosa and Vitex cymosa. 50 seeds from each species were (a) placed in water during a period of 15 days and afterwards moved to va´rzea substrate, thus simulating seed buoyancy and/or submergence in the natural environment, and (b) directly placed in va´rzea substrate, with four repetitions, respectively.
    [Show full text]
  • Peat Swamp Forests Conservation and Sustainable Use
    Peat Cover 07-03-06 3/9/06 11:18 AM Page 1 S AB YA AH MAJU JA Ministry of Natural Resources and Environment, Malaysia MALAYSIA’S PEAT SWAMP FORESTS CONSERVATION AND SUSTAINABLE USE United Nations Development Programme Wisma UN, Block C, Kompleks Pejabat Damansara Jalan Dungun, Damansara Heights, 50490 Kuala Lumpur, Malaysia. Tel: 03 2095 9122 Fax: 03 2095 2870 www.undp.org.my MALAYSIA’S PEAT SWAMP FORESTS CONSERVATION AND SUSTAINABLE USE S AB YA AH MAJU JA Ministry of Natural Resources and Environment, Malaysia Published by the United Nations Development Programme (UNDP), Malaysia. © UNDP. All rights reserved. First published April 2006. ISBN 983-40995-5-X United Nations Development Programme Wisma UN, Block C, Kompleks Pejabat Damansara, Jalan Dungun, Damansara Heights, 50490 Kuala Lumpur, Malaysia. www.undp.org.my A catalogue record for this book is available from the Library of UNDP. The contents may be freely reproduced for non-commercial purposes with attribution to the copyright holders. Maps are not authoritative on boundaries. Design: Thumb-Print Studio Sdn Bhd. Foreword eat swamp forests are an important component of the world’s wetlands – the dynamic link between land and water, a transition zone where the flow of water, the cycling of nutrients and the energy of P the sun combine to produce a unique ecosystem of hydrology, soils and vegetation. Peat swamp forests provide a variety of benefits in the form of forestry and fisheries products, energy, flood mitigation, water supply and groundwater recharge. Nearly 60 per cent of Malaysia, or about 19.5 million hectares, is under forest cover of one type or another.
    [Show full text]
  • Wetland Classification – Background.………………………………………………
    Proposed Classification for Biological Assessment of Florida Inland Freshwater Wetlands Report to: Florida Department of Environmental Protection Contract No. WM68 (Development of a Biological Approach for Assessing Wetland Function and Integrity) by S.J. Doherty, C.R. Lane, M.T. Brown Center for Wetlands PO Box 116350 University of Florida Gainesville, FL 32611 May 2000 This project and the preparation of this report were funded in part by a Section 104(b)(3) Water Quality Improvement grant from the U.S. Environmental Protection Agency through a contract with the Florida Department of Environmental Protection. Table of Contents List of Tables………………………...………………………………………………........... iii Wetland Classification – Background.………………………………………………............ 1 Florida Natural Areas Inventory…………………………………………………….............. 3 Soil Conservation Service………………………………………………………….. ............. 3 Florida Land-use, Cover and Forms Classification System……………………… ................ 5 Florida Fish and Wildlife Conservation Commission……………………………................. 6 U.S. Fish and Wildlife Service – National Wetlands Inventory……………….…................. 7 Other Classification Systems………………………………………………….…..................11 Ecosystems of Florida (Myer and Ewel 1990)……………………….…...................11 The Nature Conservancy…………………………………………………. ................11 Lake County Water Authority/Seminole County……………………..…..................11 Hydrogeomorphic Wetland Classification……………………………………..… ................12 Classification Crosswalks………………………………………………………....................14
    [Show full text]
  • 124 Mangrove-Freshwater Swamp Transition Forest
    Mangrove-Freshwater Swamp Transition Forest Landscape in the Niger Delta… MANGROVE-FRESHWATER SWAMP TRANSITION FOREST LANDSCAPE IN THE NIGER DELTA: SPECIES DOMINANCE AND DIVERSITY Nwabueze, I. Igu Department of Geography and Meteorology, Nnamdi Azikiwe University, Awka Email: [email protected] Abstract Transition zones in forest ecosystems are suitable landscapes for understanding species interactions between adjacent ecosystems. This study sought to understand the biodiversity patterns and species dominance of a freshwater-mangrove transition zone in the Niger Delta and likely environmental change concerns. To achieve this, a total of 8 plots that are 1 hectare each were set up randomly across the delimited zone and used to conduct a vegetation inventory. Trees that were ≥ 10cm diameter at breast height (130cm) were identified to species levels and their results were summarized with species importance values and biodiversity indices. In all, 55 plant species within 30 families were found across the plots. More than 50% of the species were dominated by Rhizophora racemosa, Elaeis guineensis, Raphia spp, and Lannea welwitschii Engl.; with species importance values of 72.94, 64.22, 18.17 and 8.35, respectively. Species diversity ranged from 2.23 to 2.83 and the number of species varied from 29 to 42 across the plots. Though the diversity were lower than what obtains in tropical ecosystems (like lowland rain forests), they were still much higher than what the mangrove ecosystem supports. Environmental conditions in the transition zone enabled mutual species occurrence and supported community coexistence of species more than what would normally be obtainable in single ecosystems. Biodiversity conservation of the landscape is advocated as the zone serves supportive role as important refuge for species in both mangrove and freshwater landscapes currently and more importantly as the effects of environmental change become more glaring across the region.
    [Show full text]
  • The South Florida Environment—
    The South Florida Environment— A By Benjamin F. McPherson and Robert Halley Region U.S. Geological Survey Circular 1134 Under Stress National Water-Quality Assessment Program U.S. DEPARTMENT OF THE INTERIOR BRUCE BABBITT, Secretary U.S. GEOLOGICAL SURVEY Gordon P. Eaton, Director The Florida Everglades UNITED STATES GOVERNMENT PRINTING OFFICE: 1996 For sale by the Any use of trade, product, or firm names in this publications is U.S. Geological Survey for descriptive purposes only and does not imply endorsement by the U.S. Government. Branch of Information Services Box 25286 Denver, CO 80225-0286 Library of Congress Cataloging in Publication Data McPherson, Benjamin F. The south Florida environment : a region under stress / by Benjamin F. McPherson and Robert Halley. p. cm. -- (United States Geological Survey circular ; 1134) “National Water-Quality-Assessment Program.” Includes bibliographical references. 1. Florida--Environmental conditions. 2. Environmental management--Florida. I. Halley, Robert B. II. National Water-Quality Assessment Program (U.S.) III. Title. IV. Series: U.S. Geological Survey circular ; 1134 GE155.F6M37 1997 97-20480 363.7′009759--dc21 CIP ISBN 0-607-87154-7 III Contents Abstract .................................................................................. 1 Introduction ............................................................................ 2 Acknowledgments .................................................................. 5 Environmental Setting—The Natural System ........................ 6 Physiography
    [Show full text]
  • Managing and Classifying Wetlands in the Mekong River Delta
    Managing and Classifying Wetlands in the Mekong River Delta Pham Trong Thinh Vice Director Science Section, Sub-FIPI, Secretary of VN Wetland Team 245/5 Banh Van tran Tan, Tan Binh District Ho Chi Minh City, Vietnam Introduction prints, agriculture ecology, geomorphology, flooding and land use. Wetland classification maps were The Mekong Delta encompasses eleven provinces in established for the Mekong Delta and two study sites. the southernmost part of Viet Nam. The total area is about 3.9 million hectares, or 12% of the total area of In order to link the Inventory and Management of the country; including areas of marine water, the depth Wetlands in the Mekong Delta project with national of which at low tide does not exceed six meters. The wetlands management, the classification system is being Delta includes numerous wetlands types such as marine revised and refined. This report discusses how to revise and coastal intertidal mudflats, the estuaries of river the wetlands classification system in the Mekong Delta. mouths, inland floodplains and freshwater lacustrines or palustrines. Wetlands not only provide various types of foodstuff but also play an important role in Wetlands Definitions in International conserving biodiversity and maintaining environmental Literature balance. They create buffer zones between land and ocean, accumulate fertile silt from the Mekong River, There are about 50 definitions of wetlands in the world reduce erosion and buffer against harmful effects of (Dugan 1990). Wetlands classification requires three typhoons and other forces in the coastal zone, and attributes: provide habitats for aquatic organisms and wildlife. ;or (i) the transient land is suitable for most aquatic flora; these reasons, the need to find appropriate measures (ii) the soil substratum is not almost dried; and for conservation and wise use of wetlands are priority (iii) the soil stratum is not clear saturated or inundated tasks in establishing a development strategy in the sometime during the growing season.
    [Show full text]
  • World Bank Document
    Public Disclosure Authorized -- * - . -- ~. : 0*, ='/ + . ~~~~~* 0+* A.l ~~~~~~~~~*0 *; . Public Disclosure Authorized \ ~ ~~ ~ ~ ~ X*+*~~ * 4p \~~~~~~~~~~~~~~~~1*' Public Disclosure Authorized 8101Z~~~~~~~~~~~~~~~~~~ Public Disclosure Authorized Wetlandcs in Asia A bookletto accompanythe Map of Wetlands of International Importance in Asia Produced by Wetlands International -Asia Pacific and The World Bank CONTENTS FOREWORD ... COOPERATING AGENCIES ................................ iv ACKNOWLEDGMENTS ................................. v INTRODUCTION ................................ 1 What are Wetlands? .1 WETLANDS IN ASIA . 3 Geographicaland Cultural Diversity .3 The Biodiversity of Wetlands .3 The Decline of Biodiversity .5 Wetland Protected Areas .7 Frameworksfor Biodiversity Conservation of Wetlands .8 ACCOUNTS OF THE SUB-REGIONS OF ASIA .11 Middle East .12 North and Central Asia .15 East Asia .17 South Asia .22 South East Asia .27 ACTION PROGRAM FOR THE CONSERVATION OF WETLANDS IN ASIA .31 The Kuala Lumpur Statement .31 Action Program.32 Actions by Government Agencies .32 Actions by Development Assistance Agencies .34 Actions by Non-Governmental Organisations .35 BIBLIOGRAPHY .. 36 The World Bank i Wetlands in Asia TABLES 1 - Major Threats to Wetlands in Asia ................. ........................................ 5 BOXES 1 - Wetland Benefits ......................................................... 6 2 - Principal Obligations of Contracting Parties to the Ramsar Convention ................. 7 3 - Wetlands of Lower Mesopotamia, Iraq
    [Show full text]